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负载于FeO@HNTs-四唑(CFHT)纳米复合材料上的铜(II):合成、表征、其对1,3-偶极环加成反应的催化作用研究及抗菌活性

Cu(ii) immobilized on FeO@HNTs-tetrazole (CFHT) nanocomposite: synthesis, characterization, investigation of its catalytic role for the 1,3 dipolar cycloaddition reaction, and antibacterial activity.

作者信息

Hajizadeh Zoleikha, Hassanzadeh-Afruzi Fereshte, Jelodar Diana Fallah, Ahghari Mohammad Reza, Maleki Ali

机构信息

Catalysts and Organic Synthesis Research Laboratory, Department of Chemistry, Iran University of Science and Technology Tehran 16846-13114 Iran

出版信息

RSC Adv. 2020 Jul 15;10(44):26467-26478. doi: 10.1039/d0ra04772d. eCollection 2020 Jul 9.

DOI:10.1039/d0ra04772d
PMID:35519782
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9055433/
Abstract

In the present study, Cu(ii) immobilized on an FeO@HNTs-tetrazole (CFHT) nanocomposite was designed and prepared. For this, halloysite nanotubes (HNTs) as natural mesoporous substances were modified during several chemical reactions. The synthesis of the CFHT nanocomposite was investigated step by step with the required physicochemical techniques such as FT-IR, EDX, SEM, TEM, XRD, VSM, TGA and CHNS analyses. After ensuring that the nanocomposite was successfully prepared, its catalytic application in the synthesis of the 5-substituted 1-tetrazole derivatives multicomponent reactions (MCRs) between aromatic aldehydes, malononitrile, and sodium azide was assessed. According to the experimental results, the prepared nanocomposite exhibited excellent capability for conducting this MCR reaction. All desired products were obtained in a short reaction time (30-40 min) with high productivity (90-97%) and without a complicated workup procedure. Furthermore, the magnetic property of the synthesized heterogeneous nanocomposite empowers it to be recovered and reused in five times successive reactions without any significant reduction in reaction efficiency. Moreover, the remarkable antibacterial activity of the nanocomposite against () and () was evaluated by agar diffusion and plate-count methods. The zones of inhibition were around 16 and 20 mm for and bacteria, respectively. Also, colony analysis confirms the killing of bacteria by using the CFHT nanocomposite.

摘要

在本研究中,设计并制备了固定在FeO@HNTs-四唑(CFHT)纳米复合材料上的Cu(II)。为此,作为天然介孔物质的埃洛石纳米管(HNTs)在几个化学反应过程中进行了改性。采用FT-IR、EDX、SEM、TEM、XRD、VSM、TGA和CHNS分析等所需的物理化学技术逐步研究了CFHT纳米复合材料的合成。在确保成功制备纳米复合材料后,评估了其在芳香醛、丙二腈和叠氮化钠之间的5-取代-1-四唑衍生物多组分反应(MCRs)合成中的催化应用。根据实验结果,制备的纳米复合材料在进行该MCR反应时表现出优异的性能。所有所需产物在短反应时间(30-40分钟)内以高生产率(90-97%)获得,且无需复杂的后处理程序。此外,合成的多相纳米复合材料的磁性使其能够在连续五次反应中回收和重复使用,而反应效率没有任何显著降低。此外,通过琼脂扩散法和平板计数法评估了纳米复合材料对()和()的显著抗菌活性。对于和细菌,抑菌圈分别约为16和20毫米。此外,菌落分析证实了使用CFHT纳米复合材料可杀死细菌。

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